Teletraffic Engineering and Network Planning

Последна измена: March 31, 2021

Course: Teletraffic Engineering and Network Planning

Code: 3ФЕИТ10034

ECTS points: 6 ЕКТС

Number of classes per week: 3+0+0+3

Lecturer: Assoc. Prof. Dr. Vladimir Atanasovski

Course Goals (acquired competencies): Understanding advanced traffic concepts for next generation telecommunications networks. Dimensioning and planning telecommunications networks from a traffic viewpoint.

Course Syllabus: Necessary concepts from probability theory. Markov models. Regenerative processes. M/G/1 queue. Analysis of M/G/1-FIFO queue. Analysis with nested Markov model. Analysis of M/G/1-PS queue. Phase method. Analysis of M/G/1-LIFO queue. Priorities. Ideal serving discipline for M/G/1 queues. Application of queueing theory for performance analysis of telecommunications networks. Traffic matrices. Topologies. Routing principles. Approximative and exact methods for calculation. Load control and service protection. Moe’s principle. Multiservice queueing systems. Types. Networks of queues. Open networks. Jackson’s theorem. Closed networks. Traffic measurements. Continual and discrete measurements. Application of probability theory models and stochastic processes for analysis of measured traffic. Modelling Internet traffic. Standards and regulations for network planning. ITU recommendations for teletraffic engineering. Traffic predictions in real networks. Economy of telecommunications networks. Research challenges in the area.

Literature:

Required Literature

No.

Author

Title

Publisher

Year

1

Villy Baek Iversen Teletraffic Engineering and Network Planning DTU Fotonik 2015

2

Haruo Akimaru and Konosuke Kawashima Teletraffic: Theory and Applications (Telecommunication Networks and Computer Systems) Springer 2011

3

David Everitt and Michael Rumsewicz Multiaccess, Mobility and Teletraffic: Advances in Wireless Networks Springer 2012